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Cloudera Impala: A Modern SQL Engine for Apache HadoopMark Grover
Software Engineer, Cloudera
February 27, 2013
● General-purpose SQL engine● Real-time queries in Apache Hadoop● Beta version released since October 2012● General availability (GA) release slated for April 2013● Open source under Apache license
What is Impala?
● User View of Impala● Architecture of Impala● Comparing Impala with Dremel● Comparing Impala with Hive● Impala Roadmap
Overview
Impala Overview: Goals
● General-purpose SQL query engine:● should work both for analytical and transactional workloads● will support queries that take from milliseconds to hours
● Runs directly within Hadoop:● reads widely used Hadoop file formats● talks to widely used Hadoop storage managers ● runs on same nodes that run Hadoop processes
● High performance:● C++ instead of Java● runtime code generation● completely new execution engine that doesn't build on MapReduce
User View of Impala: Overview
● Runs as a distributed service in cluster: one Impala daemon on each node with data
● User submits query via ODBC/JDBC to any of the daemons● Query is distributed to all nodes with relevant data● If any node fails, the query fails● Impala uses Hive's metadata interface, connects to Hive's metastore● Supported file formats:
● uncompressed/lzo-compressed text files● sequence files and RCFile with snappy/gzip compression● GA: Avro data files● GA: columnar format (more on that later)
User View of Impala: SQL● SQL support:
● patterned after Hive's version of SQL● essentially SQL-92, minus correlated subqueries● limited to Select, Project, Join, Union, Subqueries, Aggregation and
Insert● only equi-joins; no non-equi joins, no cross products● Order By only with Limit● GA: DDL support (CREATE, ALTER)
● Functional limitations:● no custom UDFs, file formats, SerDes● no beyond SQL (buckets, samples, transforms, arrays, structs, maps,
xpath, json)● only hash joins; joined table has to fit in memory:
● beta: of single node● GA: aggregate memory of all (executing) nodes
User View of Impala: Apache HBase
● HBase functionality:● uses Hive's mapping of HBase table into metastore table● predicates on rowkey columns are mapped into start/stop
row● predicates on other columns are mapped into
SingleColumnValueFilters
● HBase functional limitations:● no nested-loop joins● all data stored as text
Impala Architecture
● Two binaries: impalad and statestored● Impala daemon (impalad)
● handles client requests and all internal requests related to query execution
● exports Thrift services for these two roles
● State store daemon (statestored)● provides name service and metadata distribution● also exports a Thrift service
Impala Architecture
● Query execution phases● request arrives via odbc/jdbc● planner turns request into collections of plan fragments● coordinator initiates execution on remote impalad's● during execution
● intermediate results are streamed between executors● query results are streamed back to client● subject to limitations imposed to blocking operators
(top-n, aggregation)
Impala Architecture: Planner
● 2-phase planning process:● single-node plan: left-deep tree of plan operators● plan partitioning: partition single-node plan to maximize scan locality,
minimize data movement
● Plan operators: Scan, HashJoin, HashAggregation, Union, TopN, Exchange
● Distributed aggregation: pre-aggregation in all nodes, merge aggregation in single node.
GA: hash-partitioned aggregation: re-partition aggregation
input on grouping columns in order to reduce per-node
memory requirement
● Join order = FROM clause order
GA target: rudimentary cost-based optimizer
Impala Architecture: Planner
● Example: query with join and aggregationSELECT state, SUM(revenue)FROM HdfsTbl h JOIN HbaseTbl b ON (...)GROUP BY 1 ORDER BY 2 desc LIMIT 10
HBaseScan
HashJoin
HDFSScan
Exch
TopN
Agg
Exch
at coordinator at DataNodes at region servers
AggTopN
Agg
HashJoin
HDFSScan
HBaseScan
Impala Architecture: Query Execution
Request arrives via odbc/jdbc
Query Planner
Query Executor
HDFS DN HBase
SQL App
ODBC
HiveMetastore
HDFS NN Statestore
Query Planner
Query Coordinator
Query Executor
HDFS DN HBase
Query Planner
Query Executor
HDFS DN HBase
SQL request
Query Coordinator Query Coordinator
Impala Architecture: Query Execution
Planner turns request into collections of plan fragments
Coordinator initiates execution on remote impalad's
Query Planner
Query Coordinator
Query Executor
HDFS DN HBase
SQL App
ODBC
Query Planner
Query Coordinator
Query Executor
HDFS DN HBase
Query Planner
Query Coordinator
Query Executor
HDFS DN HBase
HiveMetastore
HDFS NN Statestore
Impala Architecture: Query Execution
Intermediate results are streamed between impalad's Query results are streamed back to client
Query Planner
Query Coordinator
Query Executor
HDFS DN HBase
SQL App
ODBC
HiveMetastore
HDFS NN Statestore
Query Planner
Query Coordinator
Query Executor
HDFS DN HBase
Query Planner
Query Coordinator
Query Executor
HDFS DN HBase
query results
Impala Architecture
● Metadata handling:● utilizes Hive's metastore● caches metadata: no synchronous metastore API calls
during query execution● beta: impalad's read metadata from metastore at startup● Post-GA: metadata distribution through statestore● Post-GA: HCatalog
Impala Architecture
● Execution engine● written in C++● runtime code generation for "big loops"● internal in-memory tuple format plus fixed-width data at
fixed offsets● uses intrinsics/special cpu instructions for text parsing,
crc32 computation, etc.
Impala Execution Engine
● More on runtime code generation● example of "big loop": insert batch of rows into hash table● known at query compile time: # of tuples in a batch, tuple
layout, column types, etc.● generate at compile time: unrolled loop that inlines all
function calls, contains no dead code, minimizes branches● code generated using llvm
Impala's Statestore
● Central system state repository● name service (membership)● Post-GA: metadata● Post-GA: other scheduling-relevant or diagnostic state
● Soft-state● all data can be reconstructed from the rest of the system● cluster continues to function when statestore fails, but per-node state
becomes increasingly stale
● Sends periodic heartbeats● pushes new data● checks for liveness
Statestore: Why not ZooKeeper?
● ZK is not a good pub-sub system● Watch API is awkward and requires a lot of client logic● multiple round-trips required to get data for changes to
node's children● push model is more natural for our use case
● Don't need all the guarantees ZK provides:● serializability● persistence● prefer to avoid complexity where possible
● ZK is bad at the things we care about and good at the things we don't
Comparing Impala to Dremel
● What is Dremel?● columnar storage for data with nested structures● distributed scalable aggregation on top of that
● Columnar storage in Hadoop: joint project between Cloudera and Twitter
● new columnar format: Parquet; derived from Doug Cutting's Trevni● stores data in appropriate native/binary types● can also store nested structures similar to Dremel's ColumnIO
● Distributed aggregation: Impala● Impala plus Parquet: a superset of the published version of
Dremel (which didn't support joins)
● What is it:● container format for all popular serialization formats: Avro, Thrift,
Protocol Buffers
● successor to Trevni
● jointly developed between Cloudera and Twitter● open source; hosted on github
● Features● rowgroup format: file contains multiple horiz. slices● supports storing each column in separate file
● supports fully shredded nested data; repetition and definition levels similar to Dremel's ColumnIO
● column values stored in native types (bool, int<x>, float, double, byte array)
● support for index pages for fast lookup● extensible value encodings
More about Parquet
Comparing Impala to Hive
● Hive: MapReduce as an execution engine● High latency, low throughput queries● Fault-tolerance model based on MapReduce's on-disk
checkpointing; materializes all intermediate results● Java runtime allows for easy late-binding of functionality:
file formats and UDFs.● Extensive layering imposes high runtime overhead
● Impala:● direct, process-to-process data exchange● no fault tolerance● an execution engine designed for low runtime overhead
Comparing Impala to Hive
● Impala's performance advantage over Hive: no hard numbers, but
● Impala can get full disk throughput (~100MB/sec/disk); I/O-bound workloads often faster by 3-4x
● queries that require multiple map-reduce phases in Hive see a higher speedup
● queries that run against in-memory data see a higher speedup (observed up to 100x)
Impala Roadmap: GA – April 2013
● New data formats:● Avro● Parquet
● Improved query execution: partitioned joins● Further performance improvements● Guidelines for production deployment:
● load balancing across impalad's● resource isolation within MR cluster
Impala Roadmap: 2013
● Additional SQL:● UDFs● SQL authorization and DDL● ORDER BY without LIMIT● window functions● support for structured data types
● Improved HBase support:● composite keys, complex types in columns,
index nested-loop joins,INSERT/UPDATE/DELETE
Impala Roadmap: 2013
● Runtime optimizations:● straggler handling● join order optimization● improved cache management● data collocation for improved join performance
● Better metadata handling:● automatic metadata distribution through statestore
● Resource management:● goal: run exploratory and production workloads in same
cluster, against same data, w/o impacting production jobs
Try it out!
● Beta version available since 10/24/12● Latest version is 0.6● We have packages for:● RHEL 6.2/5.7● Ubuntu 10.04 and 12.04● SLES 11● Debian 6● We are targeting GA for April 2013● Questions/comments? [email protected]● My email address: [email protected]● My twitter handle: mark_grover